Consolidated Architecture Portfolio by Priscillia Bokoko

PRISCILLIA BOKOKO

PORTFOLIO

Community Centre for the experience and exchange of Congolese culture in Yeoville

2020

PROJECT DESCRIPTION

“It is important that we know where we come from, because if you do not know where you come from, then you don’t know where you are, and if you don’t know where you are, you don’t know where you’re going. And if you don’t know where you’re going, you’re probably going wrong.” - Terry Pratchett. This research is rooted in my experience of being a migrant in a foreign land and it is birthed from a desire to maintain my cultural identity. Four words drive this research, each dealing with specific themes: Congolese: • Migration Community: • Cultural diversity and inclusivity • Self-sufficiency

Culture: • Sustainable development • Cultural Identity Cuisine: • Food • Urban Agriculture • African Leafy Vegetables

This led to a research project based on the question: How can a migrant community still experience and exchange its culture in a home away from their own? The project aims to deconstruct a xenophobic mentality and create a sense of belonging for certain migrant communities through cultural awareness and inclusivity. Food is used as a platform in promoting culture for sustainable development, with African leafy vegetables forming the base due to its inclusive nature in being eaten across all African nations and its ability to be farmed in small spaces using diverse farming systems. The community centre serves as a medium through which the Congolese culture can be experienced and exchanged and is a catalyst for strengthening diverse multi-cultural communities in Yeoville.

YouTube link to walkthrough of project: https://youtu.be/h5jg6wSF0c4 3

CONCEPTUAL THEMATIC

The community centre is a built interpretation of a traditional African mask. The building form resembles that of a crown and the building’s sharp-pitched and folded roofscape is its crown. The traditional African masks connect to rituals and ceremonies around harvesting as they ensure a good harvest. This connects to the building’s farming and planting programme. Furthermore, the anatomy of African leafy vegetables consists of the roots, the stem, and the green crown of leaves on top. This green colour is reflected within the building and on its facade. The traditional African masks are mainly carved from wood, however, terracotta, pottery, copper, brass or leather are among secondary materials used. These materials are reflected in the building’s architectural language through its terracotta satin facebrick facade, timber screens and planters, and its timber roof structure. The colours of these materials are also reflected on the building through the copper-coloured roof sheeting, the warm, terracotta-coloured facebrick and black steel plant trellis screens. The geometrical and symmetrical patterns on the building’s elevation reflect the use of bold patterns incorporated in the design of traditional African masks, which identify female and male masks or serve as a form of coded information. However, in the context of the building’s design, these powerful and expressive patterns function to draw positive attention to migrant communities, allowing these communities to be visible, celebrated and deeply rooted within their local contexts. The building is intended to draw attention to itself through its architecture and is an icon and symbol which gives a new mask or identity to migrant communities, with the aim of deconstructing past and present negative conceptions of migrants or “others” within Johannesburg, and deconstructing a xenophobic mentality by firstly being a space where migrant communities can feel at home away from their homes, and secondly by sharing diverse cultures with its local context.

SITE SELECTION

Context Diagram Map Key

Context Diagram Map for site justification - Scale 1:20 000 5

GROUND FLOOR SCALE 1:100

SECTION A-A_SCALE 1:100

ELEVATIONS_SCALE 1:100

East Elevation

ELEVATIONS_SCALE 1:100

North Elevation

SUSTAINABILITY

Passive design techniques implemented throughout the building for optimal plant growth. The building responds to its orientation by having plant and timber screens on its west façade and deep-set windows and roof overhangs on its north façade. The plant screens grow on steel trellises which are supported by the facebrick building façade. It makes use of passive cooling techniques through roof gardens and the courtyard towards which most spaces open. Air can move through, making the spaces cool and well-ventilated. The peaks in the roof structure allow for stack ventilation in big spaces like the cooking workshop and multipurpose hall.

Sustainability section

Sustainability Axonometric 11

VIEWS ON SUSTAINABILITY

Plant Screen

Rooftop Farming and custom solar panels 12

TECHNICAL SYSTEMS

1. TWO COATS BITUMINOUS ALUMINIUM PAINT FINISH ON ONE LAYER DERBIGUM SP4 WATERPROOFING MEMBRANE ON MIN. 30mm “POLITERM BLU” THERMAL INSULATING SCREED WITH 45° FILLET ON ENDS LAID @ MIN. 1:80 FALLS AND CROSS-FALLS TO FULL BORE OUTLETS ON 300mm RC STORMWATER CHANNEL TO ENG. DETAIL 2. KLIP-LOK 700 ® ROOF SHEETING FIXED WITH NO.10 - 16 x 16mm LONG SELF-DRILLING WAFER HEAD PH2 SCREWS ON 75 x 50mm GALVANISED STEEL LIPPED ‘Z’ SECTION PURLIN @ 950mm C/C ON REFLECTIVE FOIL LAMINATE ON 250mm POLYISOCYANURATE (PIR) INSULATED ROOF PANEL FIXED TO (PIR) INSULATED WALL PANELS ON EACH END 3. 12mm FLUSH-PLASTERED AND PAINTED CEILING ON 6.4mm GYPSUM PLASTERBOARD FIXED TO 38 x 38mm S.A.P BRANDERING @ MIN. 600mm C/C FIXED TO 228 x 50mm S.A.P WALL-HUNG CEILING JOISTS 4. 90 DEGREES 50 x 228 x 2mm STEEL TRUSS HANGER 5. 500 x 600mm RC RING BEAM TO ENG. DETAIL 6. KLIP-LOK ROOF SHEETING FIXED WITH NO.10 - 16 x 16mm LONG SELF-DRILLING WAFER HEAD PH2 SCREWS ON 75 x 50mm GALVANISED STEEL LIPPED ‘Z’ SECTION PURLIN ON REFLECTIVE FOIL LAMINATE ON 250mm POLYISOCYANURATE (PIR) INSULATED WALL PANEL 7. 230mm STOCK BRICK WALL PLASTERED ON BOTH SIDES 8. NUTRIENT FILM TECHNIQUE HYDROPONIC FARMING SYSTEM 8a. Ø100mm PVC PLANTING STEPS 8b. 380 x 450mm WATER PUMP 9a. ALUMINIUM PLATE BOX WINDOW TRIM WITH A 130mm PROTRUSION FIXED TO UNDERSIDE OF RC RING BEAM AND UNDERSIDE OF CUSTOM PRECAST WINDOW SILL 9b. ALUMINIUM BENT PROFILE WINDOW SILL SCREWED TO CUSTOM PRECAST CONCRETE SILL ON DPC. 9c. 290mm FACEBRICK VENEER CAVITY WALL WITH 30mm RIGID INSULATION WITH GALVANISED BUTTERFLY WALL TIES & BRICKFORCE AT EVERY 4 COURSES TO ENG. DETAIL. BRICK VENEER SUPPORTED ON 120 x 120 x 8mm STEEL EQUAL SHELF ANGLE. BRICKS PLACED 40mm AWAY FROM RC STRUCTURAL FRAME 10. DOUBLE WALL CAVITY STORAGE SPACE 11. 750 x 455mm WOODEN PLANTER ON STEEL STAND FIXED TO STEEL CHANNELS FIXED TO SLAB EDGE WITH PEIKKO® STEEL THERMALLY ISULATED BALCONY CONNECTOR TO MANUFACTURER’S SPECIFICATION AND DETAIL 12. PLANTER DRAIN CONNECTED TO 10 x 75mm GALVANISED STEEL SQUARE DOWNPIPE 13. 290mm FACEBRICK CAVITY WALL WITH 30mm RIGID INSULATION WITH GALVANISED BUTTERFLY WALL TIES & BRICKFORCE AT EVERY 4 COURSES TO ENG. DETAIL. 14. 500 x 500mm OUTDOOR CERAMIC TILES ON ONE LAYER DERBIGUM CG4/CG3 WATERPROOFING MEMBRANE PLACED IN BETWEEN CEMENT SCREED & TILE MORTAR BED WITH MINIMUM THICKNESS OF 45mm. 15. STEEL TRELLIS MESH WELDED TO STEEL C-CHANNEL OF RAISED PLANTING BED 16. MIN 45mm CEMENT SCREED LAID TO MIN. 1:80 FALL TO STAINLESS STEEL LINEAR DRAINAGE CHANNEL TO Ø100mm PVC DRAINAGE PIPE ENCASED IN 500 x 500mm RC COLUMN TO PLANTER BELOW 17. 330mm FACEBRICK CAVITY WALL WITH 110mm WEAK CONCRETE INFILL TO ENG. DETAIL. 18. CERAMIC TILES ON MIN. 40mm SCREED ON 255mm RC SLAB 19. 203 x 133mm STEEL I-BEAM INTERMEDIATE SUPPORT FOR GLASS BLOCK FLOOR 20. 500 x 500mm RC COLUMN 21. 140mm DRYWALL MARKET STALL PARTITIONS 22. DIMPLED DRAINAGE MEMBRANE ON TORCH-ON WATERPROOFING MEMBRANE ON BITUMINOUS WATERPROOFING MEMBRANE ON ELASTOMERIC – WASHED 400mm RC RETAINING WALL TO ENG. DETAIL 23. CERAMINC FLOOR TILES ON MIN. 40mm CEMENT SCREED ON 170mm RC RAFT FOUNDATION TO ENG. DETAIL ON DPM ON CONTINUOUS BITUMINOUS WATERPROOFING MEMBRANE ON 80mm SAND-BINDING LAYER ON WELL-RAMMED HARDCORE 24. 870mm RC RAFT FOUNDATION EDGE BEAM TO ENG. DETAIL 25. WASHED DRAINAGE FILL AROUND Ø100mm AGRICULTURAL DRAIN WRAPPED IN BIDEM CLOTH, TOPPED WITH GEOTEXTILE DRAINAGE FABRIC TO PREVENT FINER MATERIAL FROM SETTLING IN THE DRAINAGE LAYER 26. 1:12 REINFORCED CONCRETE DISABLED ACCESS RAMP TO ENG. DETAIL ON CONTINUOUS BITUMINOUS WATERPROOFING MEMBRANE ON SANDBINDING LAYER ON WELL-RAMMED HARDCORE

Perimeter Section 13

INTERIOR VIEWS OF PERIMETER SECTION

Indoor hydroponic farming

Traditional farming balcony

Indoor Market 14

DETAILS 1

250mm POLYISOCYANURATE (PIR) INSULATED WALL PANEL FIXED WITH COMMON NAILS TO 76 x 500mm TREATED SILL PLATE FIXED WITH Ø13mm ANCHOR BOLT TO RC RING BEAM

200mm POLYISOCYANURATE FOAM CORE 200mm POLYISOCYANURATE FOAM CORE

BREATHER MEMBRANE

BREATHER MEMBRANE VAPOUR BARRIER VAPOUR BARRIER

KLIP-LOK ROOF SHEETING FIXED WITH NO.10 - 16 X 16MM LONG SELF-DRILLING WAFER HEAD PH2 SCREWS ON 75 x 50mm GALVANISED STEEL LIPPED 'Z' SECTION PURLIN ON REFLECTIVE FOIL LAMINATE ON 250mm POLYISOCYANURATE (PIR) INSULATED WALL PANEL

CONTINUOUS SEALANT EACH SIDE OF FRAMING AS RECOMMENDED BY MANUFACTURER

25mm OSB FIXED WITH COMMON NAILS ON EACH SIDE OF 76 x 200mm PIR STRUCTURALLY INSULATED WALL PANEL BOTTOM PLATE

20mm EXPANDED CLOSED CELL POLYETHYLENE SONDOR POLYCLOSURE TO CLOSE GAP BETWEEN SHEETING AND WALL PANEL TO MANUFACTURER'S SPECIFICATION

FLASHING

20mm EXPANDED CLOSED CELL POLYETHYLENE SONDOR POLYCLOSURE TO CLOSE GAP BETWEEN SHEETING AND WALL PANEL TO MANUFACTURER'S SPECIFICATION

FLASHING 200mm ISOPOLYCYANURATE FOAM CORE 250mm POLYISOCYANURATE (PIR) INSULATED ROOF PANEL FIXED WITH PANEL SCREW TO 76 x 200mm S.A PINE TOP PLATE OF PIR STRUCTUALLY INSULATED WALL PANEL

SILL SEALER

200mm ISOPOLYCYANURATE FOAM CORE COUNTER FLASH

SILL SEALER

S10 FIXING CLIP

500 x 600mm RC RING BEAM TO ENG. DETAIL VAPOUR BARRIER

500 x 600mm RC RING BEAM TO ENG. DETAIL

12mm JUMBO STANDARD PLASTERBOARD

110mm FACEBRICK WITH CONCAVE MORTAR JOINTS ON 120 x 120 x 8mm MACSTEEL SHELF ANGLE FIXED TO 510mm RC SLAB EDGE TO ENG. DETAIL

25mm OSB FIXED WITH COMMON NAILS ON EACH SIDE OF 76 x 200mm TOP PLATE

SEALANT

CONTINUOUS SEALANT EACH SIDE OF FRAMING AS RECOMMENDED BY MANUFACTURER

110mm FACEBRICK WITH CONCAVE MORTAR JOINTS ON 120 x 120 x 8mm MACSTEEL SHELF ANGLE FIXED TO 510mm RC SLAB EDGE TO ENG. DETAIL SEALANT

250mm POLYISOCYANURATE (PIR) INSULATED ROOF PANEL FIXED WITH PANEL SCREW TO 76 x 200mm S.A PINE TOP PLATE OF PIR STRUCTUALLY INSULATED WALL PANEL

12mm S.A PINE SOFFIT BOARD FIXED TO U/S OF 25mm OSB FIXED TO 76 x 200mm S.A PINE BASE PLATE OF PIR INSULATED ROOF PANEL

VAPOUR BARRIER

0.58mm THICK GALVAISED Z275 STEEL HIPCAP FLASHING S10 CLIP ON 38 x 450mm FASCIA BOARD FIXED WITH COMMON NAILS TO 76 x 200mm S.A PINE BASE PLATE OF PIR INSULATED ROOF PANEL

12mm JUMBO STANDARD PLASTERBOARD 25mm OSB FIXED WITH COMMON NAILS ON EACH SIDE OF 76 x 200mm TOP PLATE CONTINUOUS SEALANT EACH SIDE OF FRAMING AS RECOMMENDED BY MANUFACTURER

VAPOUR BARRIER 250mm PIR STRUCTURALLY INSULATED WALL PANEL

VAPOUR BARRIER

SIP ROOF PANEL TO WALL PANEL CONNECTION DETAIL SCALE 1:5

BREATHER MEMBRANE

250mm PIR STRUCTURALLY INSULATED WALL PANEL BREATHER MEMBRANE

60 x 160mm ALUMINIIUM FRAME WINDOW 60 x 160mm ALUMINIIUM FRAME WINDOW

SIP WALL PANEL TO RING BEAM CONNECTION DETAIL SCALE 1:5

SIP WALL PANEL TO RING BEAM

CONNECTION DETAIL SIP roof panel to wall panel connection detail SCALE 1:5

38 x 300mm FASCIA BOARD FIXED TO PIR ROOF AND WALL PANEL

KLIP-LOK 700 ® ROOF SHEETING FIXED WITH NO.10 - 16 X 16MM LONG SELF-DRILLING WAFER HEAD PH2 SCREWS ON 75 x 50mm GALVANISED STEEL LIPPED 'Z' SECTION PURLIN @ 950mm C/C ON REFLECTIVE FOIL LAMINATE ON 250mm POLYISOCYANURATE (PIR) INSULATED ROOF PANEL FIXED WITH PANEL SCREW TO ANGLED TIMBER BLOCK AT 300mm C/C

38 x 300mm FASCIA BOARD FIXED TO PIR ROOF AND WALL PANEL

VAPOUR BARRIER FIXING CLIP

0.58mm THICK GALVAISED Z275 STEEL HIPCAP FLASHING CLIPPED WITH S10 CLIPS TO KLIP-LOK SHEETING PROFILE

VAPOUR BARRIER

12mm JUMBO STANDARD PLASTERBOARD ANGLED TIMBER FIXED WITH 90mm NAILS TO 76 x 200mm TOP PLATE

FIXING CLIP

12mm JUMBO STANDARD PLASTERBOARD ANGLED TIMBER FIXED WITH 90mm NAILS TO 76 x 200mm TOP PLATE

15mm CONTINUOUS BEAD OF SEALANT

50mm RING NAILS FIXED TO PIR WALL PANEL TOP PLATE STAGGERED AT 150mm C/C

0.58mm THICK GALVAISED Z275 STEEL HIPCAP FLASHING CLIPPED WITH S10 CLIPS TO KLIP-LOK SHEETING PROFILE

VAPOUR BARRIER

15mm CONTINUOUS BEAD OF SEALANT

50mm RING NAILS FIXED TO PIR WALL PANEL TOP PLATE STAGGERED AT 150mm C/C VAPOUR BARRIER

250mm POLYISOCYANURATE (PIR) INSULATED WALL PANEL FIXED TO 76 x 200mm TREATED BASE PLATE FIXED WITH Ø13mm ANCHOR BOLT TO RC USB

20mm EXPANDED CLOSED CELL POLYETHYLENE SONDOR POLYCLOSURE TO CLOSE GAP BETWEEN SHEETING AND WALL PANEL TO MANUFACTURER'S SPECIFICATION

FLASHING FLASHING TWO COATS BITUMINOUS ALUMINIUM PAINT FINISH ON ONE LAYER DERBIGUM SP4 WATERPROOFING MEMBRANE ON MIN. 30mm "POLITERM BLU" THERMAL INSULATING SCREED WITH 45° FILLET ON ENDS LAID @ MIN. 1:80 FALLS AND CROSS-FALLS TO FULL BORE OUTLETS ON 300mm RC STORMWATER CHANNEL TO ENG. DETAIL

TWO COATS BITUMINOUS ALUMINIUM PAINT FINISH ON ONE LAYER DERBIGUM SP4 WATERPROOFING MEMBRANE ON MIN. 30mm "POLITERM BLU" THERMAL INSULATING SCREED WITH 45° FILLET ON ENDS LAID @ MIN. 1:80 FALLS AND CROSS-FALLS TO FULL BORE OUTLETS ON 300mm RC STORMWATER CHANNEL TO ENG. DETAIL

90 DEGREES 50 x 228 x 2mm STEEL TRUSS HANGER 90 DEGREES 50 x 228 x 2mm STEEL TRUSS HANGER

12mm FLUSH-PLASTERED AND PAINTED CEILING ON 6.4mm GYPSUM PLASTERBOARD FIXED TO 38 x 38mm S.A.P BRANDERING FIXED TO 228 x 50mm S.A.P WALL-HUNG CEILING JOISTS

SIP ROOF & WALL PANEL TO STORMWATER CHANNEL CONNECTION DETAIL SCALE 1:5

12mm FLUSH-PLASTERED AND PAINTED CEILING ON 6.4mm GYPSUM PLASTERBOARD FIXED TO 38 x 38mm S.A.P BRANDERING FIXED TO 228 x 50mm S.A.P WALL-HUNG CEILING JOISTS

SIP ROOF & W

SIP wall panel to stormwater channel connection detail 15

EXPLODED STRUCTURAL AXONOMETRIC

BUILDING PROGRAMME

The programme revolves around ways in which people can interact with food. Public facilities are centered around food consumption, and include the Market, African Fine Dining Restaurant and Food Gallery. Semi-public facilities are centered around food production and food and cultural education such as farming and workshops. Private programmes are reserved for offices, storage and service facilities.

Programme Diagram

Food production: traditional farming in the courtyard 17

INTERIOR VIEWS

Food Education: Multi-purpose Hall

Food preparation room 18

BUILDING PROGRAMME

ARTISTS IMPRESSION OF YEOVILLE’S URBAN DEVELOPMENT

BIRD’S EYE VIEW

SOUTH CORNER PERSPECTIVE

SOUTH CORNER VIBRANT MURAL

African Union Embassy in Braamfontein

2019

PROJECT DESCRIPTION

With Johannesburg dubbed as a “world class African City”, the design an African Union Embassy in the heart of Braamfontein, a multi-national community, seems fitting. The African Union Embassy aims to be a civic building wherein polarised programmes (being the private nature of the embassy and the lively public nature of its complimentaries) can interlock in a unique way that creates balance. The civic programme of the embassy is influenced by the culture of education and the arts which is prominent in Braamfontein, with whch the building aims to work. Emphasis is placed on the relationship between language and education (two elements that separate Africans) and music (what unites Africans) to create an internal balance which is expressed through the form, programmatic layout and building function. The vision is that the African Union Embassy should be one that is tangible to all Africans; that enhances the African experience and that promotes unity, solidarity and cohesion between African countries and its people.

Bulk massing model in relation to the context

Weight of Services model

Suggestive massing model in relation to the context

Core and Facade concept model

Massing model relative to the programme

Services and circulation model (view 1)

Programme distribution model

Services and circulation model (view 2)

Ground floor diagrammatic response to immediate context

Ground Floor Plan 1. North entrance 2. African Union Embassy Foyer 3. Gallery 4. Lower ground floor gallery 27

Section

Corobrik Firelight Travertine FBS Face Brick Standard Facade

60x160mm aluminium window frame on custom precast concrete sill on Gundle® API Brickgrip DPC 250µm Window damp proof course or any other similar SABS Approved , applied in accordance with manufacturers recommendations 305x305x15mm mild steel I-beam section welded to 12mm mild steel base plate fixed with expansion anchor bolts to US of RC slab

15mm porcelain tile internal sill

Mortar bed 110x75x980mm RC lintol 100x120mm mild steel shelf angle bolted to 100x100x10mm mild steel I-beam section

45° screed fillet with waterproofing on top

Corobrik Firelight Travertine FBS Face Brick Standard Facade Sealant 20mm compressible joint

Ø50mm PVC weep hole placed in brick to drain balcony

982

970

400x400x10mm Terrazzo tiles on one layer Derbigum CG4/CG3 waterproofing on screed laid to min 1:80 fall to Ø50mm PVC pipe weep hole placed in brick upstand

780

Facebrick

20mm compressible joint

230

762

365

12mm plaster and paint finish

100x120mm mild steel shelf angle bolted to 100x100x10mm mild steel I-beam section

152x50mm SAP timber joist on 0.9x150x50mm galvanised steel hangers fixed with galvanised nails to the wall

Sealant 20mm compressible joint

120x120mm mild steel shelf angle bolted to RC slab

RC lintol

525

alumnium channel fixed on angle cleat side mounted to underside of RC lintol

10mm thick toughened safety glass butt jointed with sealant and sealant backing

Corobrik Firelight Travertine FBS Face Brick Standard Facade

Frameless glass pop-out window box

DETAIL 3 SCALE 1:5

6mm gypsum ceiling board on 38x38mm SAP battens fixed to underside of timber joists

305

305x305x15mm mild steel I-beam section welded to 12mm mild steel base plate fixed with expansion anchor bolts to US of RC slab

2310

10mm thick toughened safety glass

DETAIL 4 SCALE 1:5

Frameless glass window box

1430

752

300

400

Frameless glass window box

10mm toughened safety glass on padding, epoxy grout and sealant in aluminium fram

170

170mm concrete floor slab on 300mm RC upstand beam

Off shutter 525mm RC coffered slab with chamfered edges and 40mm Drip Grove to engineer's detail

595

6mm plywood fixed to 20x100mm SAP battens fixed to concrete backing

Storage cupboard

425

375

50x10mm meranti skirting fixed to 38x38mm SAP batten 19mm OSB board on 40mm screed on 525mm RC waffle slab

Face of slab to be plastered

525

120x120x8mm mild steel shelf angle bolted to 305x305x15mm mild steel I-beam section

Off shutter 525mm RC coffered slab with chamfered edges and 40mm Drip Grove to engineer's detail

DETAIL 2 SCALE 1:5 12mm laminated double glazed curtain wall supported by 50x150x50mm aluminum mullions to facade engineers detail

Details

Exploded Axonometric

Interior views Public Library Multi-purpose Hall Africna Union Embassy Foyer 32

Exterior views South Entrance Public Rooftop Garden

Facade Model 33

Inclusionary Housing in Illovo

2019

PROJECT DESCRIPTION

UPLIFT: Re-emerging the Public Space Public space for socio-economic inclusivity In a country whose cities still manifest “Cities of the Rich and Cities of the Poor” because of Apartheid spatial planning, this project investigates whether an inclusive and equal environment between the two extremities can be created through the use using public space as a vital tool. Through having more public spaces in Illovo – identified in having a small public footprint – significant value would be added to the socio-economic life of its community. Thus, the objective of the design is to use public spaces to create socio-economic inclusivity through the design of communal spaces. The challenge is to transform an old office building, bordering Oxford Road and Chaplin Road, into a place which adds social value across all income groups to breed economic upliftment and create opportunities along the the urban framework of Illovo, making the area a point of destination instead of simply a pass-through point. Re-emergence of public space concept diagram

Site plan & Lower Ground floor plan 36

Ground floor plan 37

Total of 104 units, of which 35% are affordable through the “FLISP” subsidy housing programme, thus, exceeding the minimum requirements for Inclusionary Housing. Housing typologies within scheme and their location on building floors 38

Development of Massing

Development of Ground floor public space and access to it within the building 39

Section A - A

Massing Model

Perspective views from Oxford Street

Brixton Public Library

2017

PROJECT DESCRIPTION

The revitilisation of urban public space in Brixton through a proposed Cultural Precinct consisting of the existing park, improved sporting facilities, and a new 24-hour public library. The intervention aims to activate the ground floor of the Cultural precinct by making it accessible to pedestrians, therefore, providing residents, tenants, and visitors to Brixton with an environment which is supportive to all issues of housing, offices, civic amenities, educational facilities, retail and infrastructure. In the long-term, this strategy will activate the commercial ribbon along High Street; increase the property value of Brixton; improve the extensive green infrastructure and utilise the Heritage building and swimming pool to its full potential.

Ground Floor Plan & Sketch Plan

High Street

Brixton Municipal Swimming Pool (Heritage building)

cur y

Mer et Stre

Diagram of site informants for Ground floor

Diagram of building response to site 44

Thresholds & Circulation diagram

Facade & Building Orientation diagram

Influence of core precedent in design 45

Perspective View of Public Forecourt

Site Section

Perspective View of Outdoor Gym

PRISCILLIA BOKOKO Candidate Architect

2021